土壤细菌群落中鞭毛运动的生态学意义

Josep Ramoneda, Kunkun Fan, Jane M Lucas, Haiyan Chu, Andrew Bissett, Michael S Strickland, Noah Fierer
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引用次数: 0

摘要

鞭毛运动是细菌的一个关键特征,因为它能让细菌在周围环境中航行。并非所有细菌都具有鞭毛运动能力,而且这种特性的分布、其生态关联性以及鞭毛类群的生活史策略仍然特征不清。我们开发并验证了一种基于基因组的方法,以推断 12 个细菌门(共 26 192 个基因组)的鞭毛运动潜力。鞭毛运动能力与较高的碳水化合物代谢基因流行率和较高的最大潜在增长率相关,这表明鞭毛运动在碳供应较高的环境中更为普遍。为了验证这一假设,我们采用了一种方法,从元基因组数据中推断整个细菌群落中鞭毛运动的普遍性,并在 4 项独立的实地研究中量化了鞭毛运动的普遍性,每项研究都捕捉到了土壤碳供应的假定梯度(148 个元基因组)。不出所料,我们在所有数据集中都观察到了细菌鞭毛运动流行率与土壤碳可用性之间的正相关关系。由于土壤中碳的可用性通常与其他可能影响鞭毛虫活动的因素相关,我们利用从土壤培养实验中获得的元基因组数据验证了这些观察结果,在该实验中,碳的可用性直接受葡萄糖添加剂的影响。结果证实,细菌鞭毛运动的普遍性与土壤中碳的可用性一直相关,而与其他潜在的干扰因素无关。这项工作凸显了结合预测基因组学和元基因组学方法的价值,以拓展我们对微生物表型特征的理解,并揭示其与环境的一般关联。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ecological relevance of flagellar motility in soil bacterial communities
Flagellar motility is a key bacterial trait as it allows bacteria to navigate their immediate surroundings. Not all bacteria are capable of flagellar motility, and the distribution of this trait, its ecological associations, and the life history strategies of flagellated taxa remain poorly characterized. We developed and validated a genome-based approach to infer the potential for flagellar motility across 12 bacterial phyla (26 192 genomes in total). The capacity for flagellar motility was associated with a higher prevalence of genes for carbohydrate metabolism and higher maximum potential growth rates, suggesting that flagellar motility is more prevalent in environments with higher carbon availability. To test this hypothesis, we applied a method to infer the prevalence of flagellar motility in whole bacterial communities from metagenomic data, and quantified the prevalence of flagellar motility across 4 independent field studies that each captured putative gradients in soil carbon availability (148 metagenomes). As expected, we observed a positive relationship between the prevalence of bacterial flagellar motility and soil carbon availability in all datasets. Since soil carbon availability is often correlated with other factors that could influence the prevalence of flagellar motility, we validated these observations using metagenomic data acquired from a soil incubation experiment where carbon availability was directly manipulated with glucose amendments. This confirmed that the prevalence of bacterial flagellar motility is consistently associated with soil carbon availability over other potential confounding factors. This work highlights the value of combining predictive genomic and metagenomic approaches to expand our understanding of microbial phenotypic traits and reveal their general environmental associations.
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